Abstract

Sol-gel silicas with nominal pore diameters ranging from 25 Angstrom to 500 Angstrom were studied by NMR cryoporometry, and by neutron diffraction and small angle scattering from dry silicas over the Q range 8.10(-4)Angstrom (-1) less than or equal to Q less than or equal to 17 Angstrom (-1). Density and imbibation experiments were also performed. Geometric models of porous systems were constructed and were studied by both analytic techniques and Monte-Carlo integration. These models, combined with the information from the above measurements, enabled the calculation of the fully density corrected solid-solid density correlation functions G(r) for the sol-gel silicas, deduction of the (voidless) silica matrix density, measurement of the silica fraction in the grain and of the packing fraction of the silica grains and an estimation of the water equivalent residual hydrogen on the dried silica surface. In addition, the pore diameter D, pore diameter to lattice spacing ratio Dia, and pore and lattice variance sigma could also be measured. White the NMR cryoporometry pore diameter measurements for the sol-gel silicas show excellent co-linearity with the nominal pore diameters as measured by gas adsorption, and the calculated pore diameters from the measured neutron scattering show surprisingly good agreement with these measurements at large pore diameters, there is a divergence between the calibrations for pore diameters below about 100 Angstrom.